Neurographics

Imaging Spectrum of Pediatric Spinal Neoplasms

Haverkamp, B.T.; Nizamuddin, R.A.; Loskutov, A.; Lowe, L.H.; Adler, K.E.

View Article on Neurographics Website

Date of Activity Release: June 1, 2017
Date of Activity Expiration: June 1, 2020

Target Audience:
Intended for neuroradiologists and neuroradiology trainees with varying degrees of experience.

Learning Objectives:
1) Explain the utility of anatomic classification of neoplasms to establish a limited differential diagnosis, and 2) describe key clinical, imaging, and pathologic characteristics of common pediatric spinal neoplasms.

Abstract
Pediatric spinal neoplasms encompass a wide range of lesions in the spinal cord, surrounding dural spaces, and bone. Due to the insidious onset of frequently vague symptoms, radiologists play an important role in the evaluation and correct diagnosis of these lesions. Magnetic resonance (MR) is the imaging technique of choice and is used to classify spinal lesions anatomically into intra- versus extramedullary and intra- versus extradural locations. Correlation with key clinical and imaging features allows radiologists to form a limited differential diagnosis and often to make a specific diagnosis. The purpose of this article was to review imaging of pediatric spinal cord neoplasms, including anatomy and key radiographic features of various neoplasms.

Commercial Support
No commercial support was received for this activity.

Credit Designation Statement

The American Society of Neuroradiology is accredited by the Accreditation Council for Continuing Medical Education (ACCME) to provide continuing medical education for physicians.

The American Society of Neuroradiology designates this journal-based CME activity for a maximum of 1 AMA PRA Category 1 Credit(s)TM. Physicians should claim only the credit commensurate with the extent of their participation in the activity.

Method of Physician Participation:
Each participant will review the corresponding Neurographics article located at www.neurographics.org. Upon completion, each physician will complete and pass a post-test with a score of at least 80% to receive a CME certificate.

Disclosures:
All individuals in control of content have disclosed the following relevant financial relationships. All of these relationships were treated as a conflict of interest, and have been resolved (C7 SCS 6.1-6.2, 6.5)

Authors:
Authors have no relevant financial relationships.

Planners:

Name

Role

Relationship/Interest

Barton Branstetter 

Editor in Chief

None, N/A

Adam Flanders

Deputy Editor

Royalties, Lippincott Williams and Wilkins

Robert Quencer 

Consulting Editor

None, N/A

Mark Mullins

Associate Editor

Non-remunerative position, AUR6

Meng Law

Associate Editor

Stockholder, Clinical Imaging

Michele Johnson

Associate Editor

Consultant, Boston Scientific, Inc.

Edward Escott

Associate Editor

Grant, Atherysys, Inc.; Royalties, Thieme Medical Publishers

Scott Faro

Associate Editor

None, N/A

Tina Young Poussaint

Associate Editor

None, N/A

Dheeraj Ghandi

Associate Editor

Grant, Arstasis, Axera Inc.; Consultant, Covidien, EV3

Contact Information:
If you have questions regarding this enduring material activity, please contact us at communications@asnr.org.

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